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Supplementary Information
Overcoming Resistance to HER2 Inhibitors Through State-Specific Kinase Binding
Chris J. Novotny1, Sirkku Pollari2, Jin H. Park3, Mark A. Lemmon3,4, Weijun Shen2*, Kevan M. Shokat1*
1Howard Hughes Medical Institute and Department of Cellular and Molecular Pharmacology, University of California San Francisco, San Francisco, CA 94158, USA 2 California Institute for Biomedical Research (Calibr), 11119 N. Torrey Pines Road, La Jolla, CA 92037, USA 3 Department of Biochemistry and Biophysics and Graduate Group in Biochemistry and Molecular Biophysics, University of Pennsylvania Perelman School of Medicine, Philadelphia, PA 19104, USA 4 Present address: Department of Pharmacology and Cancer Biology Institute, Yale University, New Haven, CT 06520
Nature Chemical Biology: doi:10.1038/nchembio.2171
Supplementary Results Supplementary Table 1. Small molecule screening data Category Parameter Description Assay Type of assay Cell-based Target ERBB3 (UniProt P21860, KEGG 2065), ERBB2
(UniProt P04626, KEGG 2064) Primary measurement Detection of cell viability
Key reagents CellTiter-Glo Luminescent Cell Viability Assay (Promega)
Assay protocol Described in the Methods section
Additional comments
Library Library size 950,000 compounds
Library composition Diverse set of small-molecule compounds, composing of known drug library, bioactive library with known mechanism of action (MOA) and also 750,000 proprietary compounds with unknown MOA
Source Commercially available and proprietary sources Additional comments The compounds were stored at room temperature for
max 6 months during HTS Screen Format White 1,536-well solid bottom plates from Greiner or
Corning Concentration(s) tested 4 µM compound, 0.4% DMSO Plate controls 4 uM lapatinib, 0.4% DMSO Reagent/ compound dispensing system
Compounds: Echo 555 Liquid Handler from Labcyte; cells, CellTiter-Glo reagent: Bottle valve dispenser from Kalypsys
Detection instrument and software ViewLux uHTS Microplate Imager (PerkinElmer) Assay validation/QC Z’ ≥ 0.75 Correction factors -
Normalization DMSO control
Additional comments
Post-HTS analysis Hit criteria >50% inhibition of the luminescence signal as compared to the DMSO control
Hit rate 1.5%
Additional assay(s) Hit confirmation in triplicate with the screening assay. Counter screens: Ba/F3 and Ba/F3 Axl cell viability
Confirmation of hit purity and structure Compounds were re-synthesized Additional comments
Nature Chemical Biology: doi:10.1038/nchembio.2171
Kinase % Inhibition
EGFR 95.595 ABL1 95.195 LCK 74.16 SRC 63.24 FLT-3 59.99 BLK 59.895 FGFR1 48.3 MAP4K4 36.53 KDR 27.32 GSK-3-BETA 20.465 JAK3 20.43 TRKC 15.655 SGK1 14.44 AKT1 14.27 IGF1R 13.315 TIE2 12.835 PDGFR-ALPHA 11.85 AURORA-A 9.945 P70S6K1 8.875 CSK 6.955 P38-ALPHA 6.605 ALK 6.145 PRKD2 5.465 DYRK1A 5 PDK1 4.58 CDK2 4.145 PIM-1-KINASE 4.075 DYRK1B 4.01 MST1 3.855 PYK2 3.805 CK1-EPSILON 3.45 EPH-B4 3.44 TYRO3 3.29 AMP-A1B1G1 2.685 EPH-A2 2.42 TRKA 2.385 MET 2.045 IKK-BETA 1.915 NEK2 1.53 IRAK4 1.465 ITK 1.24 PKC-ALPHA 1.24
JNK2 1.075 CHEK1 0.965 TSSK1 0.665 ROCK1 0.155 MAPKAPK-2 0.12 PAK2 0.085 DAPK1 -0.52 SYK -2.115
Supplementary table 2
Supplementary Table 2. Complete profiling of 2 at 100nM conducted by Nanosyn.
Nature Chemical Biology: doi:10.1038/nchembio.2171
Kinase % Inhibition ABL1 97.22 EGFR 96.945 LCK 93.57 BLK 90.405 FLT-3 89.42 SRC 88.935 FGFR1 86.27 MAP4K4 78.705 KDR 71.28 JAK3 69.355 GSK-3-BETA 68.82 TIE2 59.745 SGK1 53.445 IGF1R 53.275 PDGFR-ALPHA 52.5 AURORA-A 47.18 TRKC 46.91 P70S6K1 38.41 AKT1 33.05 PRKD2 26.63 CSK 24.82 CK1-EPSILON 24.12 DYRK1B 22.625 EPH-B4 21.67 EPH-A2 20.97 PYK2 20.195 MST1 19.93 ALK 19.825 PDK1 18.29 CDK2 17.555 DYRK1A 16.68 ITK 13.945 AMP-A1B1G1 12.91 P38-ALPHA 12.91 MET 10.14 PIM-1-KINASE 8.705 JNK2 6.62 PKC-ALPHA 5.57 TYRO3 5.56 TRKA 4.495 NEK2 2.985
IKK-BETA 2.91 CHEK1 2.265 DAPK1 1.425 IRAK4 1.42 ROCK1 1.16 PAK2 1.07 MAPKAPK-2 0.575 TSSK1 -3.06 SYK -6.41
Supplementary table 3
Supplementary Table 3. Complete profiling of 2 at 1 µM conducted by Nanosyn.
Nature Chemical Biology: doi:10.1038/nchembio.2171
Data collection and refinement statistics (molecular replacement) EGFR/2 Data collection1 Space group P 31 2 1 Cell dimensions a, b, c (Å) 69.4, 69.4, 192 () 90, 90, 120 Resolution (Å) 50-3.30 Rsym
2 0.057 (0.982)3 I / I 21.4 (1.26) Completeness (%) 99.7 (99.7) Redundancy 3.4 (3.5) Refinement Resolution (Å) 34.7-3.30 No. reflections 8562 Rwork / Rfree 0.24/0.27 No. atoms Protein 2308 Ligand 38 B-factors Protein 150.2 Ligand 126.6 R.m.s. deviations Bond lengths (Å) 0.003 Bond angles () 0.628 1 Each dataset was collected from a single crystal 2 Values for highest resolution shell are shown in parenthesis 3 CC1/2 is 0.562 on highest resolution shell
Supplementary table 4
Nature Chemical Biology: doi:10.1038/nchembio.2171
IC50 of Gatekeeper Mutant Ba/F3 Cells Lines (nM ± SD)
2YF/3wt 2YF/3TM 2YFTM/3wt 2YFTM/3TM Lapatinib 63.6 ± 12.5 27.8 ± 5.6 >10,000 >10,000 Gefitinib 195.8 ± 36.3 125 ± 52.6 >10,000 >10,000
2 20.0 ± 6.4 18.6 ± 5.9 3,237 ± 415 3526 ± 797 Supplementary Table 5. Table of IC50 values (mean ± S.D., n=2)
Supplementary table 5
Nature Chemical Biology: doi:10.1038/nchembio.2171
Kinase % inhibition MAP4K4 100 EGFR 99 ABL1 98 LCK 98 SRC 95 FGFR1 93 MST1 84 MST2 84 JAK2 83 FLT-3 78 KDR 74 MEK2 70 MEK1 66 PDGFR-ALPHA 66 CSK 62 JAK1 52 TYK2 51 IGF1R 46 DYRK1A 41 PYK2 41 GSK-3-BETA 40
SYK 35 IRAK4 34 AURORA-A 31 SGK1 31 PKC-ALPHA 30 EPH-A2 28 PRKD2 28 ITK 24 AMP-A1B1G1 20 PRKACA 20 CDK1 18 MET 16 ROCK1 16 CK1-EPSILON 11 CDK2 10 CHEK1 10 IKK-BETA 8 JNK2 7 PIM-1-KINASE 7 PI3K-ALPHA 6 PDK1 5
PAK2 3 P38-ALPHA 2 CAMK4 0 DAPK1 -1 MAPK1 -2 MAPKAPK-2 -6 NEK2 -9 FAK -10
Supplementary table 6
Supplementary Table 6. Complete profiling of 3 at 1 µM conducted by Nanosyn.
Nature Chemical Biology: doi:10.1038/nchembio.2171
2YF/3wt + IL-3
Axl 2YF/3wt + NRG
2YF-L755S/3wt + NRG
2YF-YVMA/3wt + NRG
2YF-VC/3wt + NRG
Lapatinib >3,333 >3,333 63.6 ± 12.5 >3,333 >10,000 >3,333 TAK-285 >10,000 >3,333 398.6 ± 110.7 NT NT NT
3 2,536.7 ± 217.2
1,172.3 ± 106.0
6.8 ± 0.2 38.2±2.9 11.4±0.1 7.7±1.0
Supplementary Table 7. Table of IC50 values (nM ± S.D., n=3 for 2YF/3wt + IL-3, Axl, and 2YF/3wt + NRG. n=2 for 2YF-L755S/3wt + NRG, 2YF-YVMA/3wt + NRG, and 2YF-VC/3wt + NRG). NT = not tested.
Supplementary table 7
Nature Chemical Biology: doi:10.1038/nchembio.2171
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Log([TAK-285]), (M)
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TAK-285 - NRGTAK-285 + NRG
BT-474
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Log([TAK-285]), (M)
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TAK-285 - NRGTAK-285 + NRG
BT-474
Supplementary figure 1
Supplementary figure 2
140115
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p-HER2 (Y1221/1222)
HER2
p-HER3 (Y1289)
HER3
p-Akt (T308)Akt
p-ERK
ERK
_-Tubulin
p-S6 (S240/244)
S6
p-4EBP1 (T37/46)
4EBP1
Supplementary Figure 2. Full blots for figure 1d.
Supplementary Figure 1. 72h proliferation of SK-BR-3 or BT-474 cells treated with a dose-response of TAK-285 in the presence orabsence of NRG (mean ± SD, n=3).
Nature Chemical Biology: doi:10.1038/nchembio.2171
Supplementary figure 3
Supplementary Figure 3. SK-BR-3 cells were treated with DMSO or 1 +M lapatinib in the presence or absence of NRG for 1h. HER3 is the only member of the EGFR family who remains activated in the presence of both NRG and lapatinib. HER4 wasundetectable in this cell line.
p-HER2 (Y1221/Y1222)
EGFR
p-EGFR (Y1068)
HER2
p-HER3 (Y1289)
HER3
p-Akt (T308)
Akt
p-ERK
ERK
_-Tubulin
Lapatinib (1 +M)NRG (50 ng/mL)
- + - +
- +
SK-BR-3
Supplementary figure 4
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p-HER2 (Y1221/1222)
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p-HER3 (Y1289)
HER3
p-Akt (T308)Akt
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ERK
_-Tubulin
a
Nature Chemical Biology: doi:10.1038/nchembio.2171
b
c
d
Supplementary Figure 4. Full blots for a. SK-BR-3 cells in figure 2a. b. MCF-7 cells in figure 2a. c. figure 2c. d. figure 2d.
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p-HER3 (Y1289)
HER3
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p-ERK
ERK
_-Tubulin
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_-Tubulin
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HER2
p-HER3 (Y1289)
HER3
p-Akt (T308)Akt
p-ERK
ERK
_-Tubulin
Nature Chemical Biology: doi:10.1038/nchembio.2171
Supplementary figure 5
Supplementary Figure 5. NRG pre-treatment rescues HER2/HER3 signaling from lapatinib. SK-BR-3 cells were serum starved for 24h and then either treated with NRG or vehicle for 15 min followed by a dose response of lapatinib for 15 min and signaling was analyzed by western blot.
- 10 50 100 500 1000- 10 50 100 500 1000Lapatinib (nM)No Stimulation
p-HER2 (Y1221/1222)
HER2
p-HER3 (Y1289)
HER3
p-Akt (T308)
Akt
p-ERK
ERK
_-Tubulin
NRG (50ng/mL)SK-BR-3
Supplementary figure 6
Supplementary Figure 6. 48h proliferation curves of the 2YF/3wt Ba/F3 cell line in the presence of either NRG or IL-3 (mean, n=1)
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2YF/3wt Cell Panel
Log([MLN0128]), (M)
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2YF/3wt Cell Panel
Log([Vemurafenib]), (M)
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2YF/3wt + IL-32YF/3wt + NRG
Supplementary figure 7
2 (+M) - 0.1 0.5 1 5 10
p-HER3
Supplementary Figure 7. 2 binds to the active site of HER3. 1µM of The HER3 intracellular domain (665-1323) was concentratedon vesicles and incubated with 200µM ATP in the presence of varying concentrations of 2. HER3 kinase activity inhibition was evaluated by western blotting for autophosphorylation of HER3.
His5
[Cmpd]
p-HER2 (Y1221/1222)
HER2
_-Tubulin
-Lapatinib 2
-Lapatinib 2
wt HER2 HER2 TMa b
Supplementary figure 8
wt HER3
HER3 TM0
1
2
3
4
5
6
HER3 TKD Stabilizationby 2
T m
Supplementary Figure 8. Mutation of the gatekeeper residue of HER2 or HER3 to Methionine reduces the binding affinity of 2. a. HEK-293T cells were transfected with either wt HER2 or HER2 T798M, which were then treated with a dose response of lapatinibor 2 (1nM - 10µM). b. Stabilization of either wt or T787M HER3 kinase domain by 2 compared to DMSO as determined by thermofluor (mean, n=2).
Nature Chemical Biology: doi:10.1038/nchembio.2171
Supplementary figure 9
Supplementary Figure 9. In vitro kinase assay of the HER2 kinase domain against 3 (mean ± SD, n=3).
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HER2 in vitro Kinase Assay
Log([3]), (M)
%In
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vsD
MSO
3
Supplementary figure 10
Supplementary Figure 10. SK-BR-3 cells treated with a dose response of 3 in the presence or absence of NRG for 1h.
p-HER2 (Y1221/Y1222)
EGFR
p-EGFR (Y1068)
HER2
p-HER3 (Y1289)
HER3
p-Akt (T308)
Akt
p-ERK
ERK
_-Tubulin
-3 (nM) 10 50 100 500 1000- 10 50 100 500 1000
- NRG + NRG (50 ng/mL)SK-BR-3
Nature Chemical Biology: doi:10.1038/nchembio.2171
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%C
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-NRG + - + - + - + - + - + - +DMSO 5 +M
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%C
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Supplementary figure 11b
Supplementary Figure 11. NRG rescues HER2 overexpressing cell lines from type DFG in/_-c out inhibitors but not 3. a. BT-474 cells were treated with the indicated concentrations of drugs in the presence or absence of NRG for 72h. Cell death was determinedusing CellTox green with the Incucyte Zoom. (mean ± SD, n=3). b. Same experiment as in a but with SK-BR-3 cells. c. Cells weretreated with 1 +M of the indicated inhibitor in the presence of varying concentrations of NRG. The lapatininb data is reproduced from figure 1c (mean ± SD, n=3).
Supplementary Figure 12. Full blots for figure 5d.
0
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RLU
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Supplementary figure 12
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p-HER3 (Y1289)
HER3
p-Akt (T308)Akt
p-ERK
ERK
_-Tubulin
Nature Chemical Biology: doi:10.1038/nchembio.2171
Supplementary figure 13
Supplementary Figure 13.SK-BR-3 cells were treated with NRG +/- 1 uM of 3 for 1h. HER3 was purified by immunoprecipitationand analyzed for the presence of HER2.
HER2
HER3
HER2
HER3
_-Tubulin
3 (1 +M)NRG (50 ng/mL)
- +
+
SK-BR-3
IP:HER3
Supplementary figure 14
Supplementary figure 15
Supplementary Figure 14. MCF-7 cells were serum starved for 24 h and then either treated with 3 for 15 min followed by a 15 min NRG stimulation (50ng/mL) (15 min pre-treat), or 3 and NRG were added simultaneously for 15 min (simultaneous addition). 3 shows little to no shift in its ability to inhibit signaling +/- pre-incubation indicating it can bind to the actively signaling HER2/HER3 heterodimer.
- -10 50 100 500 1,000 10 50 100 500 1,000
p-HER2 (Y1221/1222)3 (nM)
HER2
p-HER3 (Y1289)
HER3
p-Akt (T308)
Akt
p-ERK
ERK
_-Tubulin
15 min pre-treatment Simultaneous additionMCF-7
- 10 50 100 500 1000- 10 50 100 500 10003 (nM)No Stimulation
p-HER2 (Y1221/1222)
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p-Akt (T308)
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p-ERK
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_-Tubulin
NRG (50ng/mL)SK-BR-3
Supplementary Figure 15. SK-BR-3 cells were serum starved for 24h and then either treated with NRG or vehicle for 15 minfollowed by a dose response of 3 for 15 min and signaling was analyzed by western blot.
Nature Chemical Biology: doi:10.1038/nchembio.2171
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p-HER2 (Y1221/1222)
HER2
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p-Akt (T308)Akt
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_-Tubulin
p-S6 (S240/244)
S6
Supplementary figure 16a
b
c
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p-Akt (T308)Akt
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Nature Chemical Biology: doi:10.1038/nchembio.2171
Supplementary Figure 16. Full blots for a. figure 6b. b. figure 6d. c. figure 6e. d. figure 6f.
d
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S6
Supplementary figure 17
Supplementary figure 18
Supplementary Figure 17. NRG rescues HER3 mutant driven Ba/F3 cells. 48h proliferation of 2YF/HER3E928G (2YF/3EG) Ba/F3 cells treated with a dose response of a. lapatinib b. TAK-285 or c. 3 in the presence or absence of NRG. The large shift in the ability to inhibit proliferation by the current HER2 drugs shows that HER3 mutants could be rescued from the effects of HER2 drugs by NRG in a manner similar to HER2 over expressing cells (mean ± SD, n=3). d. Table of IC50 values for the 2YF/3EG cell lines (nM ± SD, n=3).
Supplementary Figure 18. 3 is a more potent inhibitor of CHL-1 cell growth a. 72h proliferation curves of CHL-1 cells treated with the indicated inhibitors (mean ± SD, n=3). b. The growth of CHL-1 cells treated with a dose response of either lapatinib (left) or 3(right) was monitored over 96h using the IncuCyte Zoom (mean, n=2).
a
d
b c
2YF/3EG 2YF/3EG + NRG NRG Fold RescueLapatinib 15.7 ± 5.4 860.5 ± 99.6 55.0TAK-285 97.7 ± 17.8 3,841.3 ± 319.7 39.3
3 14 ± 4.0 58 ± 13.5 4.1
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HER3 E928G Proliferation
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Nature Chemical Biology: doi:10.1038/nchembio.2171
Supplementary figure 19
a
b
Supplementary figure 20
PK parameters of 3 in CD-1 mice following a single IV and IP doseAdministration
RouteDose
(mg/kg) !Cmax
(ng/mL)Tmax
(h)AUC(0-24) (ng/mL*h)
T-HALF (h)
CL (L/h/kg)
Vd (L/Kg)
F%
IV 2 438 0.25 157 0.3 12.6 6.0
IP 2 648 0.25 259 0.3 N/A N/A 165%!
Supplementary Figure 20 Pharmacokinetics of 3. a. Plasma concentration of 3 following a single administration of 2mg/kg by IVor IP. b. Pharmacokinetic parameters of 3.
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178 PK
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HER2
p-HER2 (Y1221/1222)
[Cmpd] (nM)
HER3
p-HER3 (Y1289)
p-Akt (T308)
Akt
p-ERK
ERK
p-S6 (S240/244)
S6
_-Tubulin
Lapatinib 3
Supplementary Figure 19. FaDu cells are more sensitive to 3 compared to lapatinib. a. 72h Proliferation of FaDu cells shows 3 ismore effective than current HER2 inhibitors (mean value ± SD, n=3). b. HER2/HER3 signaling was evaluated in FaDu cells treatedwith a dose response of either lapatinib or 3 for 24h. 3 is better able to inhibit pHER3 and its downstream signaling pathways.
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Nature Chemical Biology: doi:10.1038/nchembio.2171